Dynamic I/O power management for hard real-time systems

Power consumption is an important design parameter for embedded and portable systems. Software-controlled (or dynamic) power management (DPM) has recently emerged as an attractive alternative to inflexible hardware solutions. DPM for ham! real-time systems has received relatively little attention. In particular energy-driven I/O device scheduling for real-time systems has nor been considered before. We present the first online DPM algorithm, which we call Low Energy Device Scheduler (LEDES), for hard realtime systems. LEDES takes as inputs a predetermined task schedule and a device-usage list for each task and it generates a sequence of sleep/working states for each device. If guarantees that real-rime constraints are not violated and it also minimizes the energy consumed by the I/O devices used by the task set. LEDES is energy-optimal under the constraint that the start rimes of the tasks are fixed. We present a case study to show that LEDES can reduce energy consumption by almost 50%.